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circuitpython/tools/cpboard.py

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#!/usr/bin/env python3
#
# This file is part of the MicroPython project, http://micropython.org/
#
# The MIT License (MIT)
#
# Copyright (c) 2017 Scott Shawcroft for Adafruit Industries
# Copyright (c) 2018 Noralf Trønnes
#
# Parts taken from pyboard.py:
# Copyright (c) 2014-2016 Damien P. George
# Copyright (c) 2017 Paul Sokolovsky
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
import os
import re
import serial
import sys
import time
import serial.tools.list_ports
import sh
import shutil
class CPboardError(BaseException):
pass
# supervisor/messages/default.h:
MSG_NEWLINE = b"\r\n"
MSG_SAFE_MODE_CRASH = b"Looks like our core CircuitPython code crashed hard. Whoops!"
MSG_SAFE_MODE_BROWN_OUT_LINE_1 = b"The microcontroller's power dipped. Please make sure your power supply provides"
MSG_SAFE_MODE_BROWN_OUT_LINE_2 = b"enough power for the whole circuit and press reset (after ejecting CIRCUITPY)."
MSG_WAIT_BEFORE_REPL = b"Press any key to enter the REPL. Use CTRL-D to reload."
class REPL:
CHAR_CTRL_A = b'\x01'
CHAR_CTRL_B = b'\x02'
CHAR_CTRL_C = b'\x03'
CHAR_CTRL_D = b'\x04'
def __init__(self, board):
self.board = board
self.write_chunk_size = 32
self.safe_mode = False
self.session = b''
def __enter__(self):
self.reset()
return self
def __exit__(self, exception_type, exception_value, traceback):
pass
@property
def serial(self):
return self.board.serial
def read(self):
if self.serial.inWaiting():
data = self.serial.read(self.serial.inWaiting())
else:
data = b''
self.session += data
return data
def read_until(self, ending, timeout=10):
data = b''
timeout_count = 0
while True:
if data.endswith(ending):
break
elif self.serial.inWaiting() > 0:
new_data = self.serial.read(1)
data += new_data
self.session += new_data
timeout_count = 0
else:
timeout_count += 1
if timeout is not None and timeout_count >= 100 * timeout:
raise TimeoutError(110, "timeout waiting for", ending)
time.sleep(0.01)
return data
def write(self, data, chunk_size=None):
if chunk_size is None:
chunk_size = self.write_chunk_size
if not isinstance(data, bytes):
data = bytes(data, encoding='utf8')
for i in range(0, len(data), chunk_size):
chunk = data[i:min(i + chunk_size, len(data))]
self.session += chunk
self.serial.write(chunk)
time.sleep(0.01)
def reset(self):
# Use read() since serial.reset_input_buffer() fails with termios.error now and then
self.read()
self.session = b''
self.write(b'\r' + REPL.CHAR_CTRL_C + REPL.CHAR_CTRL_C) # interrupt any running program
self.write(b'\r' + REPL.CHAR_CTRL_B) # enter or reset friendly repl
data = self.read_until(b'>>> ')
def execute(self, code, timeout=10, async=False):
self.read() # Throw away
self.write(REPL.CHAR_CTRL_A)
self.read_until(b'\r\n>')
self.write(code)
self.write(REPL.CHAR_CTRL_D)
if async:
return b'', b''
self.read_until(b'OK')
output = self.read_until(b'\x04', timeout=timeout)
output = output[:-1]
error = self.read_until(b'\x04')
error = error[:-1]
return output, error
def run(self):
if self.safe_mode:
raise RuntimeError("Can't run in safe mode")
self.reset()
self.write(REPL.CHAR_CTRL_D)
data = self.read_until(b' output:\r\n')
if b'Running in safe mode' in data:
self.safe_mode = True
raise RuntimeError("Can't run in safe mode")
# TODO: MSG_SAFE_MODE_CRASH
# TODO: BROWNOUT
marker = MSG_NEWLINE + MSG_WAIT_BEFORE_REPL + MSG_NEWLINE
data = self.read_until(marker)
data = data.split(marker)[0]
# Haven't found out why we have to strip off this...
if data.endswith(b'\r\n\r\n'):
data = data[:-4]
return data
class Disk:
def __init__(self, dev):
self.dev = os.path.realpath(dev)
self.mountpoint = None
with open('/etc/mtab', 'r') as f:
mtab = f.read()
mount = [mount.split(' ') for mount in mtab.splitlines() if mount.startswith(self.dev)]
if mount:
self._path = mount[0][1]
else:
name = os.path.basename(dev)
sh.pmount("-tvfat", dev, name, _timeout=10)
self.mountpoint = "/media/" + name
self._path = self.mountpoint
def __enter__(self):
return self
def __exit__(self, exception_type, exception_value, traceback):
try:
self.close()
except:
pass
@property
def path(self):
return self._path
def close(self):
if not self.mountpoint:
return
mountpoint = self.mountpoint
self.mountpoint = None
start_time = time.monotonic()
unmounted = False
while not unmounted and start_time - time.monotonic() < 30:
try:
sh.pumount(mountpoint)
unmounted = True
except sh.ErrorReturnCode_5:
time.sleep(0.1)
def sync(self):
disk_device = os.path.basename(self.dev)[:-1]
os.sync()
# Monitor the block device so we know when the sync request is actually finished.
with open("/sys/block/" + disk_device + "/stat", "r") as f:
disk_inflight = 1
last_wait_time = 0
wait_time = 1
while disk_inflight > 0 or wait_time > last_wait_time:
f.seek(0)
stats = f.read()
block_stats = stats.split()
disk_inflight = int(block_stats[8])
last_wait_time = wait_time
wait_time = int(block_stats[9])
def copy(self, src, dst=None, sync=True):
if dst is None:
dst = os.path.basename(src)
shutil.copy(src, os.path.join(self.path, dst))
if sync:
self.sync()
class Firmware:
def __init__(self, board):
self.board = board
@property
def disk(self):
disks = self.board.get_disks()
if len(disks) != 1:
raise RuntimeError("Boot disk not found for: " + self.board.device)
return Disk(disks[0])
@property
def info(self):
with self.disk as disk:
fname = os.path.join(disk.path, 'INFO_UF2.TXT')
with open(fname, 'r') as f:
info = f.read()
lines = info.splitlines()
res = {}
res['header'] = lines[0]
for line in lines[1:]:
k, _, v = line.partition(':')
res[k.replace(':', '')] = v.strip()
return res
def upload(self, fw):
with open(fw, 'rb') as f:
header = f.read(32)
if header[0:4] != b'UF2\n':
raise ValueError('Only UF2 files are supported')
self.board.close()
with self.disk as disk:
disk.copy(fw, sync=False)
class CPboard:
@classmethod
def from_try_all(cls, name, **kwargs):
try:
return CPboard.from_build_name(name, **kwargs)
except ValueError:
pass
vendor, _, product = name.partition(':')
if vendor and product:
return CPboard.from_usb(**kwargs, idVendor=int(vendor, 16), idProduct=int(product, 16))
return CPboard(name, **kwargs)
@classmethod
def from_build_name(cls, name, **kwargs):
boards = {
#'arduino_zero'
'circuitplayground_express' : (0x239a, 0x8019),
#'feather_m0_adalogger' : (0x239a, ),
#'feather_m0_basic' : (0x239a, ),
'feather_m0_express' : (0x239a, 0x8023),
#'feather_m0_rfm69' : (0x239a, ),
#'feather_m0_rfm9x' : (0x239a, ),
#'feather_m0_supersized' : (0x239a, ),
#'feather_m4_express' : (0x239a, ),
#'gemma_m0' : (0x239a, ),
#'itsybitsy_m0_express' : (0x239a, ),
#'itsybitsy_m4_express' : (0x239a, ),
'metro_m0_express' : (0x239a, 0x8014),
'metro_m4_express' : (0x239a, 0x8021),
#'metro_m4_express_revb' : (0x239a, ),
#'pirkey_m0' : (0x239a, ),
#'trinket_m0' : (0x239a, ),
#'trinket_m0_haxpress' : (0x239a, ),
#'ugame10'
}
try:
vendor, product = boards[name]
except KeyError:
raise ValueError("Unknown build name: " + name)
return CPboard.from_usb(**kwargs, idVendor=vendor, idProduct=product)
@classmethod
def from_build_name_bootloader(cls, name, **kwargs):
boards = {
#'arduino_zero'
#'circuitplayground_express' : (0x239a, ),
#'feather_m0_adalogger' : (0x239a, ),
#'feather_m0_basic' : (0x239a, ),
'feather_m0_express' : (0x239a, 0x001b),
#'feather_m0_rfm69' : (0x239a, ),
#'feather_m0_rfm9x' : (0x239a, ),
#'feather_m0_supersized' : (0x239a, ),
#'feather_m4_express' : (0x239a, ),
#'gemma_m0' : (0x239a, ),
#'itsybitsy_m0_express' : (0x239a, ),
#'itsybitsy_m4_express' : (0x239a, ),
#'metro_m0_express' : (0x239a, 0x8014),
'metro_m4_express' : (0x239a, 0x0021),
#'metro_m4_express_revb' : (0x239a, ),
#'pirkey_m0' : (0x239a, ),
#'trinket_m0' : (0x239a, ),
#'trinket_m0_haxpress' : (0x239a, ),
#'ugame10'
}
try:
vendor, product = boards[name]
except KeyError:
raise ValueError("Unknown build name: " + name)
board = CPboard.from_usb(**kwargs, idVendor=vendor, idProduct=product)
board.bootloader = True
return board
@classmethod
def from_usb(cls, baudrate=115200, wait=0, timeout=10, **kwargs):
import usb.core
dev = usb.core.find(**kwargs)
if not dev:
s = "Can't find USB device: "
args = []
for x in kwargs.items():
try:
args.append('%s=0x%x' % x)
except:
args.append('%s = %s' % x)
raise RuntimeError("Can't find USB device: " + ', '.join(args))
return cls(dev, baudrate=baudrate, wait=wait, timeout=timeout)
def __init__(self, device, baudrate=115200, wait=0, timeout=10):
self.device = device
self.usb_dev = None
try:
# Is it a usb.core.Device?
portstr = ':' + '.'.join(map(str, device.port_numbers)) + ':'
except:
pass
else:
serials = [serial for serial in os.listdir("/dev/serial/by-path") if portstr in serial]
if len(serials) != 1:
raise RuntimeError("Can't find excatly one matching usb serial device")
self.device = os.path.realpath("/dev/serial/by-path/" + serials[0])
self.usb_dev = device
self.baudrate = baudrate
self.wait = wait
self.timeout = timeout
self.debug = True
self.mount = None
self.serial = None
self.bootloader = False
self.repl = REPL(self)
def __enter__(self):
self.open()
return self
def __exit__(self, exception_type, exception_value, traceback):
self.close()
def open(self, baudrate=None, wait=None):
if self.serial:
return
if baudrate is None:
baudrate = self.baudrate
if wait is None:
wait = self.wait
delayed = False
for attempt in range(wait + 1):
try:
self.serial = serial.Serial(self.device, baudrate=self.baudrate, timeout=self.timeout, write_timeout=self.timeout, interCharTimeout=1)
break
except (OSError, IOError): # Py2 and Py3 have different errors
if wait == 0:
continue
if attempt == 0:
sys.stdout.write('Waiting {} seconds for board '.format(wait))
delayed = True
time.sleep(1)
sys.stdout.write('.')
sys.stdout.flush()
else:
if delayed:
print('')
raise CPboardError('failed to access ' + self.device)
if delayed:
print('')
def close(self):
if self.serial:
self.serial.close()
self.serial = None
def exec(self, command, timeout=10, async=False):
with self.repl as repl:
try:
output, error = repl.execute(command, timeout=timeout, async=async)
except OSError as e:
if self.debug:
print('exec: session: ', self.repl.session)
raise CPboardError('timeout', e)
if error:
raise CPboardError('exception', output, error)
return output
def eval(self, expression, timeout=10):
command = 'print({})'.format(expression)
with self.repl as repl:
output, error = repl.execute(command, timeout=timeout)
if error:
raise CPboardError('exception', output, error)
try:
res = eval(str(output, encoding='utf8'))
except:
raise CPboardError('failed to eval: %s' % output)
return res
def _reset(self, mode='NORMAL'):
self.exec("import microcontroller;microcontroller.on_next_reset(microcontroller.RunMode.%s)" % mode)
try:
self.exec("import microcontroller;microcontroller.reset()", async=True)
except OSError:
pass
def reset(self, safe_mode=False, delay=5, wait=10):
self._reset('SAFE_MODE' if safe_mode else 'NORMAL')
self.close()
time.sleep(delay)
self.open(wait)
time.sleep(delay)
def reset_to_bootloader(self, repl=False):
if repl:
self._reset('BOOTLOADER')
self.close()
else:
self.close()
s = serial.Serial(self.device, 1200, write_timeout=4, timeout=4)
s.close()
def get_port_info(self):
portinfo = None
for port_iter in serial.tools.list_ports.comports():
if port_iter.device == self.device:
portinfo = port_iter
break
return portinfo
@property
def serial_number(self):
try: # Permissions are needed to read the value
return self.usb_dev.serial_number
except:
pass
p = self.get_port_info()
return p.serial_number if p else None
def get_disks(self):
if self.usb_dev:
portstr = ':' + '.'.join(map(str, self.usb_dev.port_numbers)) + ':'
return ["/dev/disk/by-path/" + disk for disk in os.listdir("/dev/disk/by-path") if portstr in disk]
serial = self.serial_number
if not serial:
raise RuntimeError("Serial number not found for: " + self.device)
return ["/dev/disk/by-id/" + disk for disk in os.listdir("/dev/disk/by-id") if serial in disk]
@property
def disk(self):
disks = self.get_disks()
part = [part for part in disks if 'part1' in part]
if not part:
raise RuntimeError("Disk not found for: " + self.device)
return Disk(part[0])
@property
def firmware(self):
return Firmware(self)
def execfile_disk(self, filename):
with self.disk as disk:
disk.copy(filename, 'code.py')
with self.repl as repl:
try:
output = repl.run()
except OSError as e:
raise CPboardError('timeout', e)
except RuntimeError:
if self.repl.safe_mode:
raise PyboardError("Can't run in safe mode")
else:
raise
return output
def execfile(self, filename, timeout=10):
if os.environ.get('CPBOARD_EXEC_MODE') == 'disk':
return self.execfile_disk(filename)
else:
with open(filename, 'rb') as f:
pyfile = f.read()
return self.exec(pyfile, timeout=timeout)
# Implement just enough to make tests/run-tests work
PyboardError = CPboardError
class Pyboard:
def __init__(self, device, baudrate=115200, user='micro', password='python', wait=0):
self.board = CPboard.from_try_all(device, baudrate=baudrate, wait=wait)
with self.board.disk as disk:
disk.copy('skip_if.py')
def close(self):
self.board.close()
def enter_raw_repl(self):
self.board.open()
def execfile(self, filename):
return self.board.execfile(filename)
def eval_namedtuple(board, command):
from collections import namedtuple
s = board.exec("print(%s)" % command)
s = s.decode().strip()
items = [key.split('=') for key in s[1:-1].split(', ')]
keys = [item[0] for item in items]
vals = [item[1] for item in items]
nt = namedtuple('eval', keys)
res = nt(*[eval(val) for val in vals])
return res
def os_uname(board):
return eval_namedtuple(board, "__import__('os').uname()")
def print_verbose(cargs, *args, **kwargs):
if cargs.verbose:
print(*args, flush=True, **kwargs)
def upload(args):
try:
board = CPboard.from_build_name_bootloader(args.board)
print_verbose(args, 'Board is already in the bootloader')
except (ValueError, RuntimeError):
board = CPboard.from_try_all(args.board)
print_verbose(args, "Serial number :", board.serial_number)
if not (args.quiet or board.bootloader):
board.open()
print('Current version:', os_uname(board).version, flush=True)
if not board.bootloader:
print_verbose(args, 'Reset to bootloader...', end='')
board.reset_to_bootloader(repl=True) # Feather M0 Express doesn't respond to 1200 baud
time.sleep(5)
print_verbose(args, 'done')
print_verbose(args, 'Bootloader:', board.firmware.info)
print_verbose(args, 'Upload firmware...', end='')
board.firmware.upload(args.firmware)
print_verbose(args, 'done')
print_verbose(args, 'Wait for board...', end='')
time.sleep(5)
print_verbose(args, 'done')
if not args.quiet:
if board.bootloader:
board = CPboard.from_try_all(args.board)
board.open(wait=10)
print('New version:', os_uname(board).version, flush=True)
def print_error_exit(args, e):
if args.debug:
return False
if not args.quiet:
print(e, file=sys.stderr)
sys.exit(1)
def main():
import argparse
cmd_parser = argparse.ArgumentParser(description='Circuit Python Board Tool')
cmd_parser.add_argument('board', help='build_name, vid:pid or /dev/tty')
cmd_parser.add_argument('-f', '--firmware', help='upload UF2 firmware file')
cmd_parser.add_argument('-c', '--command', help='program passed in as string')
cmd_parser.add_argument('--tty', action='store_true', help='print tty')
cmd_parser.add_argument('--verbose', '-v', action='count', default=0, help='be verbose')
cmd_parser.add_argument('-q', '--quiet', action='store_true', help='be quiet')
cmd_parser.add_argument('--debug', action='store_true', help='raise exceptions')
args = cmd_parser.parse_args()
if args.quiet:
args.verbose = 0
args.debug = False
if args.firmware:
try:
upload(args)
except BaseException as e:
if not print_error_exit(args, e):
raise
sys.exit(0)
try:
board = CPboard.from_try_all(args.board)
except BaseException as e:
if not print_error_exit(args, e):
raise
if args.verbose:
exec_mode = os.environ.get('CPBOARD_EXEC_MODE')
if exec_mode:
print('CPBOARD_EXEC_MODE =', exec_mode)
# Make sure we can open serial
try:
with board:
pass
except BaseException as e:
if not print_error_exit(args, e):
raise
if args.tty:
print(board.device)
elif args.command:
with board as b:
print(b.eval(args.command))
else:
with board as b:
print('Device: ', end='')
if b.usb_dev:
print('%04x:%04x on ' % (b.usb_dev.idVendor, b.usb_dev.idProduct), end='')
print(b.device)
print('Serial number:', b.serial_number)
uname = os_uname(b)
print('os.uname:')
print(' sysname:', uname.sysname)
print(' nodename:', uname.nodename)
print(' release:', uname.release)
print(' version:', uname.version)
print(' machine:', uname.machine)
if __name__ == "__main__":
main()
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